The R-350 sets the standard as a leading Vertical Take-Off & Landing (VTOL) Remotely Piloted Aircraft System (RPAS).

r-350

ITAR-FREE

The R-350 is a light tactical high-performance ITAR-free (International Traffic in Arms Regulations) unmanned aircraft. Its sleek and efficient design hides a highly sophisticated system that makes the R-350 easy to operate.

Heavy Fuel capability

The R-350 has also been designed to hold heavy fuels, making it the idea platform for surveillance tasks.

Modular design,easy to maintain

Our vision is to have a modular design methodology with 3 key attributes:

Design for production – focus on simplicity through unifying smart systems into modular assembliesMaintenance concept – based on the ability to quickly interchange major subsystemsOperations – the system operates smartly and efficiently all the while actively supporting safety and reliability

MTOW exclusion

Being under 150kg MTOW, the R-350 requires only national certification, adding to the use of use and operation.

Multiple
payload

The R-350 can take multiple payloads at the same time, i.e. EO/IR camera together with LIDAR, or Chemical Sniffer.

ITAR-FREE

The R-350 is a light tactical high-performance ITAR-free (International Traffic in Arms Regulations) Unmanned Aerial Vehicle (UAV). Its sleek and efficient design hides a highly sophisticated system that makes the R-350 easy to operate.

Multiple payload

The R-350 offers you a variety of concepts regarding payload options, combining advanced Electro-Optical and Infrared sensors (EO/IR) with other systems such as LiDAR, Multi and Hyperspectral imaging systems for airborne remote sensing and Chemical Sniffers. The two payload bays enable the customer to explore system capabilities for their requirements.

MTOW exclusion

Being under 150kg Maximum Take-Off Weight (MTOW), the R-350 requires only national certification, adding to the use of use and operation.

Design Vision

Our vision is to have a modular design methodology with 3 key attributes:

Design for production – focus on simplicity through unifying smart systems into modular assembliesMaintenance concept – based on the ability to quickly interchange major subsystemsOperations – the system operates smartly and efficiently all the while actively supporting safety and reliability

Other key features
of the R-350:

Heavy fuel jet engine

Multiple payload capabilities

Up to 12 kg in nose & 30 kg in main payload bay

ITAR-free

Small logistical footprint

Modular design, easy to maintain

VTOL Parachute Rescue System (VPRS) safety feature (option)

Other key features:

Heavy fuel jet engine

Multiple payload capabilities
Up to 12 kg in nose & 30 kg in main payload bay

Payload

Advanced stabilised
EO/IR Sensors

LIDAR

Hyper-spectral
and multi-spectral camera

Electro-Optical/Infrared (EO/IR) gimbals provide advanced wide-area situational awareness and intelligence gathering through collection, identification, categorisation and geo-location of static and moving objects of interest. It provides real-time, high-definition video to commanders and decision makers for uninterrupted surveillance of borders, urban areas, activity and events both by day and night.

Laser Imaging Detection and Ranging (LIDAR) is a remote sensing technology that measures distance by illuminating a target with laser and analysing the reflected light. LIDAR for 3D geographic survey systems provides geologists and mapping professionals with the ability to examine both natural and man-made environments with more accuracy, precision and flexibility, and to produce highly accurate maps and digital elevation models for use in geographic information systems.

Hyperspectral imaging may be used to collect and process information from across the electromagnetic spectrum. Hyperspectral sensors are ideal to map large geographic areas quickly and accurately, showing mineral resources development on the surface of the earth. The maps may subsequently be used by Unmanned Aerial Vehicles (UAVs) to assess the relative abundance of minerals and their importance in the local geological context.

Aviation transponder

HD camera (100MP)

AIS vessel identification system

Carry transport boxes up to 30 kg for multi-use

PAYLOAD - Mobile

TYPICAL EO/IR

Electro-Optical/Infrared (EO/IR) gimbals provide advanced wide-area situational awareness and intelligence gathering through collection, identification, categorisation and geo-location of static and moving objects of interest. It provides real-time, high-definition video to commanders and decision makers for uninterrupted surveillance of borders, urban areas, activity and events both by day and night.

RADARS GMTI/SAR

Synthetic Aperture Radar (SAR) is a radar system that uses the flight path of the platform to simulate an extremely large antenna or aperture electronically and generates high-resolution remote sensing imagery. SAR is used to create images of an object, such as a landscape. These images can be 2D or 3D representations of the object. High-resolution SAR provides true, all-weather ground mapping and surveillance imaging, as well as Ground Moving Target Indication (GMTI).

LIDAR

Laser Imaging Detection and Ranging (LIDAR) is a remote sensing technology that measures distance by illuminating a target with laser and analysing the reflected light. LIDAR for 3D geographic survey systems provides geologists and mapping professionals with the ability to examine both natural and man-made environments with more accuracy, precision and flexibility, and to produce highly accurate maps and digital elevation models for use in geographic information systems.

SIGINT/ELINT/COMINT

Signals Intelligence (SIGINT) is intelligence gathering by interception of signals, whether it be communication between people (Communications Intelligence, abbreviated to COMINT) or electronic signals not directly used in communication. It provides wide-area situational awareness and intelligence gathering by means of collection, identification, categorisation and geo-location of complex emitters. Airborne COMINT significantly improves the efficiency of monitoring and intelligence missions.

Hyperspectral

Hyperspectral imaging may be used to collect and process information from across the electromagnetic spectrum. Hyperspectral sensors are ideal to map large geographic areas quickly and accurately, showing mineral resources development on the surface of the earth. The maps may subsequently be used to assess the relative abundance of minerals and their importance in the local geological context.

R-350 videos & images

R-350 videos & images

PAYLOAD - Mobile

TYPICAL EO/IR

Electro-Optical/Infrared (EO/IR) gimbals provide advanced wide-area situational awareness and intelligence gathering through collection, identification, categorisation and geo-location of static and moving objects of interest. It provides real-time, high-definition video to commanders and decision makers for uninterrupted surveillance of borders, urban areas, activity and events both by day and night.

RADARS GMTI/SAR

Synthetic Aperture Radar (SAR) is a radar system that uses the flight path of the platform to simulate an extremely large antenna or aperture electronically and generates high-resolution remote sensing imagery. SAR is used to create images of an object, such as a landscape. These images can be 2D or 3D representations of the object. High-resolution SAR provides true, all-weather ground mapping and surveillance imaging, as well as Ground Moving Target Indication (GMTI).

LIDAR

Laser Imaging Detection and Ranging (LIDAR) is a remote sensing technology that measures distance by illuminating a target with laser and analysing the reflected light. LIDAR for 3D geographic survey systems provides geologists and mapping professionals with the ability to examine both natural and man-made environments with more accuracy, precision and flexibility, and to produce highly accurate maps and digital elevation models for use in geographic information systems.

SIGINT/ELINT/COMINT

Signals Intelligence (SIGINT) is intelligence gathering by interception of signals, whether it be communication between people (Communications Intelligence, abbreviated to COMINT) or electronic signals not directly used in communication. It provides wide-area situational awareness and intelligence gathering by means of collection, identification, categorisation and geo-location of complex emitters. Airborne COMINT significantly improves the efficiency of monitoring and intelligence missions.

Hyperspectral

Hyperspectral imaging may be used to collect and process information from across the electromagnetic spectrum. Hyperspectral sensors are ideal to map large geographic areas quickly and accurately, showing mineral resources development on the surface of the earth. The maps may subsequently be used to assess the relative abundance of minerals and their importance in the local geological context.